Statistical correlation between the distribution of Lyα emitters and IGM HI at z2.2 mapped by Subaru/Hyper Suprime-Cam

Abstract

The correlation between neutral Hydrogen (HI) in the intergalactic medium (IGM) and galaxies now attracts great interests. We select four fields which include several coherently strong Lyα absorption systems at z2.2 detected by using background quasars from the whole SDSS/(e)BOSS database. Deep narrow-band and g-band imaging are performed using the Hyper Suprime-Cam on the Subaru Telescope. We select out 2,642 Lyα emitter (LAE) candidates at z=2.1770.023 down to the Lyα luminosity of LLyα≈ 2 × 1042 erg~s-1 to construct the galaxy overdensity maps, covering an effective area of 5.39 deg2. Combining the sample with the Lyα absorption estimated from 64 (e)BOSS quasar spectra, we find a moderate to strong correlation between the LAE overdensity δ LAE and the effective optical depth τ LoS in line-of-sights, with P-value=0.09\% (<0.01\%) when the field that contains a significant quasar overdensity is in(ex)cluded. The cross-correlation analysis also clearly suggests that up to 41 pMpc, LAEs tend to cluster in the regions rich in HI gas, indicated by the high τ LoS, and avoid the low τ LoS region where the HI gas is deficient. By averaging the τ LoS as a function of the projected distance (d) to LAEs, we find a 30\% excess signal at 2σ level at d<200 pkpc, indicating the dense HI in circumgalactic medium, and a tentative excess at 400<d<600 pkpc in IGM regime, corroborating the cross-correlation signal detected at about 0.5 pMpc. These statistical analyses indicate that galaxy-IGM HI correlations exist on scales ranging from several hundred pkpc to several pMpc at z2.2.